TW201704128A - Electronic component operating equipment with transfer device capable of promoting operation efficiency and facilitating the transfer of the electronic components - Google Patents

Abstract

Disclosed is an electronic component operating equipment with a transfer device. The equipment is configured with a feeding device, an operating device, and a conveying device. The conveying device uses a shifting mechanism to move out the electronic components, of which the operation is accomplished. Besides, an outer side of the shifting mechanism is configured with a material-placing operation unit which is loaded with the electronic components, of which the operation is accomplished. The transfer device arranges a retainer on an inner side of the shifting mechanism. The retainer is moved in at least one direction to a first bearing position and a second bearing position, so that the shifting mechanism moves the electronic components, of which the operation is accomplished at the first bearing position. Also, the electronic components, of which the operation is accomplished, are conveyed to the second bearing position which can avoid the shifting mechanism. The transfer device uses a pick-and-place device to take out the electronic components, of which the operation is accomplished on the retainer at the second bearing position to be transferred to the material-placing operation unit. As a result, it is convenient to allocate the material-placing operation unit on the outer side of the shifting mechanism, furthermore, the transfer device is utilized to avoid the obstruction of the shifting mechanism to smoothly transfer the electronic components to the material-placing operation unit for achieving the practical benefits of promoting the operation efficiency and facilitating the transfer of the electronic components.

Description

Electronic component working device with transfer device

The invention provides a method for not only facilitating the arrangement of the loading operation unit on the outer side of the material transfer mechanism, but also smoothly transferring the electronic component to the loading operation unit by using the transfer device to avoid the obstacle of the material transfer mechanism, thereby improving the work efficiency and facilitating the transfer of the electronic device. Electronic component operating equipment for components.

Nowadays, the manufacturer performs pre-set operations such as electrical testing or visual inspection on electronic components with electronic component working equipment, and arranges the receiving device with the tray or the receiving device with the tape to collect the electronic components that have been operated. However, the preset operations and receiving methods required for electronic components will change according to the needs of different manufacturers. If a dedicated machine is purchased, the cost of the equipment will increase, so how to add different operating devices or receiving devices to the electronic component operating equipment. And the smooth transfer of electronic components at different devices is very important; please refer to Figures 1 and 2, the electronic component testing equipment includes a machine table 11, a feeding device 12, a receiving device 13, a testing device 14, a conveying device 15 and The central control device is mounted on the machine table 11 and is provided with a supply tray 121 for accommodating electronic components to be tested. The receiving device 13 is mounted on the machine table 11 and is provided with the electronic component to be tested. The receiving tray 131 is mounted on the machine table 11 and is provided with a test circuit board 141 having a test socket 142 for performing a test operation on the electronic component. The transport device 15 is attached to the machine. 11 is equipped with an input end transfer mechanism 151 having an input drive source 1511 and an input end shifter 1512. The input end transfer mechanism 151 drives the input end shifter 1512 to the feeding device by the input end drive source 1511. The feeding tray 121 of 12 takes out the electronic components to be tested and transfers them to the first feeding stage 152 and the second feeding stage 153 of the conveying device 15, respectively, the first feeding stage 152 and the second feeding. The stage 153 carries the electronic component to be tested to the side of the testing device 14, and the first pressing mechanism 154 and the second pressing mechanism 155 of the conveying device 15 respectively connect the first feeding stage 152 and the second The electronic component to be tested on the feeding stage 153 is transferred to the testing device 14, and the testing device 14 performs a test operation on the electronic component to be tested by the test socket 142. The first pressing mechanism 154 and the second pressing mechanism 155 of the 15 further transfer the measured electronic components at the testing device 14 to the first receiving stage 156 and the second receiving stage 157, the first receiving material The stage 156 and the second receiving stage 157 carry the measured electronic components, and the conveying device 15 is mounted on the machine 11 with the output end of the output driving source 1581 and the output end shifting device 1582. The material feeding mechanism 158, the output end driving device 1581 drives the output end feeder 1582 to take out the measured electronic components on the first receiving stage 156 and the second receiving stage 157, and The receiving tray 131 conveyed to the receiving device 13 is housed; however, the electronic component testing device can only receive the measured electronic components by using the receiving tray 131, and cannot provide the materials for receiving materials with different usage patterns. Even if the operator installs the receiving device with the tape outside the output end of the machine 11 of the machine 11, the output rail of the output end of the output mechanism 158 is fixed to the sliding rail and the frame of the driving source 1581. The machine 11 is disposed in a vertical direction with the first receiving stage 156 and the second receiving stage 157, resulting in loss The slide rails and the frame of the outlet drive source 1581 are horizontally blocked at one end of the first receiving stage 156 and the second receiving stage 157 to block the passage, so that the first receiving stage 156 and the second receiving material The stage 157 is unable to transport the measured electronic components to the receiving device of the tape, causing the transfer of the electronic components to be blocked and the loss of the receiving device with the tape.

An object of the present invention is to provide an electronic component working device with a transfer device, which is provided with a feeding device, a working device and a conveying device, wherein the conveying device removes the electronic components that have been operated by the material transferring mechanism. Further, a loading operation unit capable of accommodating the operated electronic components is disposed on the side of the material transfer mechanism, and the transfer device is disposed on the inner side of the material transfer mechanism, and the loader is disposed in at least one direction. In the first and second carrying positions, the first loading position is used for the loading mechanism to move into the electronic component that has been operated, and the operated electronic component is carried to the second carrying position of the retrievable moving mechanism, and the transferring device is taken The electronic component that has been operated is taken out from the receiver at the second load-bearing position and transferred to the loading operation unit; thereby, the loading operation unit can be conveniently disposed not only on the outer side of the transfer mechanism but also utilized The transfer device avoids the obstruction of the material transfer mechanism and smoothly transfers the electronic components to the loading operation unit, thereby achieving the practical efficiency of improving the operation efficiency and facilitating the transfer of the electronic components.

An object of the present invention is to provide an electronic component working device with a transfer device, and further comprising: a detecting device having at least one detecting device for detecting the electronic component, the rotating device The transport mechanism is provided with at least one transporter, and the transporter can be moved into the electronic component by the pick-and-place device, and transferred to the detector for detecting the work, and then the detected electronic component is transferred to the loading operation. Units, to achieve practical benefits of improved performance.

[study]

11‧‧‧ machine

12‧‧‧Feeding device

121‧‧‧ Feeding tray

13‧‧‧Receiving device

131‧‧‧ receiving tray

14‧‧‧Testing device

141‧‧‧Test circuit board

142‧‧‧ test seat

15‧‧‧Conveyor

151‧‧‧Input transfer mechanism

1511‧‧‧Input drive source

1512‧‧‧Input shifter

152‧‧‧First feeding stage

153‧‧‧Second feed stage

154‧‧‧First press mechanism

155‧‧‧Second pressing mechanism

156‧‧‧First receiving stage

157‧‧‧Second receiving platform

158‧‧‧Output transfer mechanism

1581‧‧‧Output drive source

1582‧‧‧Output shifter

〔this invention〕

211‧‧‧First machine

212‧‧‧Second machine

213‧‧‧ mouth

22‧‧‧Feeding device

221‧‧‧Feeder

23‧‧‧Working device

231‧‧‧ circuit board

232‧‧‧ test seat

24‧‧‧Conveyor

2411‧‧‧First mover

2412‧‧‧First drive source

242‧‧‧First feeding platform

243‧‧‧Second feed stage

244‧‧‧First pressure extractor

245‧‧‧second pressure extractor

246‧‧‧First discharge stage

247‧‧‧Second discharge platform

2481‧‧‧Second shifter

2482‧‧‧second drive source

25‧‧‧Feeding unit

251‧‧‧Feeding machine

26‧‧‧Receiving device

261‧‧‧Receipt receiver

27‧‧‧Detection device

271‧‧‧ first detector

272‧‧‧Second detector

273‧‧‧Recycler

28‧‧‧Reloading device

2811‧‧‧Instrument

2812‧‧‧ Third drive source

2821‧‧‧ picker

2822‧‧‧fourth drive source

2831‧‧‧First carrier

2832‧‧‧Second carrier

2833‧‧‧ fifth drive source

2834‧‧‧ sixth drive source

2841‧‧‧ seventh drive source

2842‧‧‧ Third carrier

2843‧‧‧fourth transporter

2844‧‧‧ fifth carrier

2845‧‧‧6th carrier

31, 32‧‧‧ Electronic components

Figure 1: Configuration diagram of a conventional electronic component test equipment.

Figure 2: A partial schematic view of a delivery device of a conventional electronic component testing device.

Figure 3 is a schematic view of the electronic component working device of the present invention.

Figure 4 is a partial schematic view of the transport device and the transfer device of the present invention.

Fig. 5 is a schematic view showing the use of the electronic component working device of the present invention (1).

Figure 6: Schematic diagram of the use of the electronic component working device of the present invention (2).

Figure 7: Schematic diagram of the use of the electronic component working device of the present invention (3).

Figure 8 is a schematic view showing the use of the electronic component working device of the present invention (4).

Fig. 9 is a schematic view showing the use of another embodiment of the receiving mode of the present invention (1).

Fig. 10 is a schematic view showing the use of another embodiment of the receiving mode of the present invention (2).

Figure 11 is a schematic view showing the use of another embodiment of the receiving mode of the present invention (3).

Fig. 12 is a schematic view showing the use of another embodiment of the receiving mode of the present invention (4).

Figure 13 is a schematic view showing the use of another embodiment of the receiving mode of the present invention (5).

Figure 14 is a schematic view showing the use of another embodiment of the receiving mode of the present invention (6).

Figure 15 is a schematic view showing the use of another embodiment of the receiving mode of the present invention (7).

In order to make the present invention further understand the present invention, a preferred embodiment will be described in conjunction with the drawings, as described in detail below. Referring to Figures 3 and 4, the electronic component working device of the present invention comprises at least one machine. The feeding device, the working device, the conveying device, the feeding operation unit, the transferring device and the central control device further comprise a receiving device and a detecting device, wherein the at least one machine is equipped with a feeding device, a working device and a conveying device. The device, the feeding operation unit and the transfer device, and further, the feeding device, the working device, the conveying device, the feeding operation unit, the receiving device, the detecting device and the transferring device can be arranged on the same machine or a plurality of machines. In this embodiment, a first machine 211 and a second machine 212 are provided, and the first machine 211 is used for assembling the feeding device 22 and working. The device 23, the conveying device 24 and the receiving device 26, the second machine 212 is equipped with a loading operation unit 25, a detecting device 27 and a transfer device 28; the feeding device 22 is disposed on at least one machine And at least one feeding device 221 is provided to accommodate at least one electronic component to be operated. In the embodiment, the feeding device 22 is disposed on the first machine 211 and is provided as a tray. The feeding device 221 is configured to receive at least one electronic component to be operated; the working device 23 is disposed on at least one machine, and is provided with at least one working device to perform preset operations on the electronic component, and Further, the working device can be a tester, a detector, or the like. The preset operation can be a test operation or an appearance inspection operation. In the embodiment, the working device 23 is disposed on the first machine 211. And a circuit board 231 having a test socket 232 for testing the electronic components and transmitting the test data to the central control device; the transport device 24 is disposed on at least one of the machines and provided with at least one shifter Feeding mechanism for feeding device 22, working device 23 and turning The device 28 transfers electronic components. In the embodiment, the conveying device 24 is disposed on the first machine 211, and is provided with a first moving mechanism with a first feeder 2411, and a first moving mechanism. A first driving source 2412 having a Y-direction slide rail, a frame, and the like is disposed on the first machine 211 to drive the first shifter 2411 in the first, second, and third directions (eg, X, Y, Z). Displacement, and take out the electronic components to be operated at the feeding device 22, and the first loading stage 242 and the second loading stage 243 which are located on both sides of the working device 23 and are displaced in the X direction for the first A shifter 2411 is moved into the electronic component to be operated and carried to the side of the working device 23, and the first presser 244 and the second presser 245 are displaced in the YZ direction, respectively, and the first feed is respectively The electronic components to be operated on the stage 242 and the second loading stage 243 are transferred to the working device 23 to perform a preset operation, and the operated electronic components at the working device 23 are removed, and the two are located on both sides of the working device 23. The first discharge stage 246 and the second discharge stage 247 displaced in the X direction are respectively provided by the first pressure taker 244 and the second pressure take-up 245 moves into the electronic component that has been operated, and carries out the working device 23, the conveying device 24 is further provided with a second moving mechanism with a second shifter 2481, and the second moving mechanism is disposed on the first machine 211. A second driving source 2482 having a Y-direction slide rail, a frame and the like is driven to drive the second shifter 2481 to shift in the XYZ direction, and the first discharge stage 246 and the second discharge stage 247 are taken out. The electronic components of the operation, further, the second shifter 2481 transfers the electronic components that have been operated to the receiving device 26 or the transfer device 28 according to the operation requirements; the loading operation unit 25 is disposed at least a machine table, and at least one loading operation device, which can be a tape receiver for housing electronic components, or a printing operation device capable of performing printing operations or labeling operations on electronic components or In the present embodiment, the loading operation unit 25 is disposed on the second machine 212 and located in the second material transfer mechanism, in order to provide the operator with different preset operations to improve the production efficiency and save the cost. The second driving source 2482 is outside the belt, and the loading operator 251 is a tape receiver for accommodating at least one electronic component that has been operated. Since the tape receiver is a conventional technology, it will not be described. The receiving device 26 is disposed on at least one machine and is provided with at least one receiving device for receiving at least one electronic component that has been operated. In the embodiment, the receiving device 26 is configured The first machine 211 is provided with a receiving receptacle 261 for the tray for accommodating at least one electronic component that has been operated; the detecting device 27 is disposed on at least one of the machines and is provided with at least one An Detector for detecting an electronic component. In this embodiment, the The device 27 is disposed on the second machine 212, and is provided with a first detector 271 and a second detector 272. The first detector 271 performs a top appearance inspection operation on the electronic component. The second detector 272 performs a five-face appearance detection operation on the electronic component, and transmits the detection data to the central control device, and the second machine 212 is provided with a recovery device 273 to recover the electronic component of the non-good product; The transfer device 28 is disposed on at least one of the machines, and is provided with a carrier mechanism having at least one receptacle 2811 on the inner side of the transfer mechanism of the transport device 24, and the mounter 2811 is displaced in at least one direction. The first carrying position is such that the working electronic component moved into the loading mechanism is carried in the first carrying position, and the operated electronic component is carried to the second carrying position of the retrievable moving mechanism. In this embodiment, The carrying mechanism is disposed on the inner side of the second driving source 2482 of the second moving mechanism, and the opening 213 is opened on the first machine 211, and the carrying mechanism is provided with a third driving source 2812 to drive the socket 2811 for Z-direction displacement and angular rotation, the bearing 2811 Through the opening 213, the first carrying position of the first machine 211 is placed at the first carrying position of the second loader 2481, and the working electronic component is transferred to the first machine 212. At the second load-bearing position, the obstacles such as the slide rails of the second drive source 2482 located above the first machine 211 are avoided, and the electronic components that have been operated are conveniently transported, and the transfer device 28 is provided with At least one pick-up mechanism of the pick-and-placer 2821 removes the already-operated electronic component from the receptacle 2811 at the second load-bearing position, and transfers the already-operated electronic component to the loading operator 251 of the loading operation unit 25, In this embodiment, the picking mechanism is disposed on the second machine 212. And a fourth driving source 2822 is provided to drive the pick-and-placer 2821 to be displaced in the XZ direction, so that the mounting device 2811 at the second carrying position takes out the working electronic component, and the transferring device 28 is attached to the second machine 212. A transport mechanism having at least one transporter is disposed for the pick-and-placer 2821 to move into the electronic component that has been operated, and the electronic component is carried to the detecting device 27 and the loading operation unit 25, and the visual inspection operation and the material are respectively performed. In the embodiment, the transport mechanism is provided with two first carrier 2831 and second carrier 2832 carrying electronic components, and is provided with a fifth driving source 2833 and a sixth The driving source 2834 drives the first carrier 2831 and the second carrier 2832 to shift in the XZ direction, respectively, so that the first and second carriers 2831 and 2832 are supplied to the pick-and-place device 2821 into the electronic components that have been operated, and the electronic components are carried to The first detector 271 performs a top surface detecting operation, and the transport mechanism is provided with a plurality of carriers arranged in a ring shape and rotated for the first and second carriers 2831, 2832 and the loading unit 25, Detecting device 27 transfer power The sub-element, in the embodiment, the transport mechanism is provided with a seventh driving source 2841 having a plurality of brackets, and the third carrier 2842, the fourth carrier 2843, and the fifth carrier are mounted on the plurality of brackets 2844 and the sixth carrier 2845, using the seventh driving source 2841 to drive the third, fourth, fifth, and sixth conveyors 2842, 2843, 2844, and 2845 for cyclic rotational displacement to the reclaiming zone, the second detector 272, and the loading The working unit 25 and the recycler 273 are respectively configured to take out the electronic components in the first and second carriers 2831 and 2832, and perform five-face visual inspection operations on the second detector 272, and collect the detected electronic components. The loading operation unit 25, and throwing the non-good electronic components into the recycler 273; the central control device (not shown) is used to control and integrate the various devices to perform automated operations.

Referring to FIGS. 5 and 6, the electronic component working device of the present invention is applied to an electronic component testing operation. In use, the first driving source 2412 of the conveying device 24 drives the first shifter 2411 to perform displacement in the XYZ direction. The electronic component 31 to be tested is taken out from the feeding device 221 of the feeding device 22, and the electronic component 31 to be tested is transferred to the first loading carrier 242; then the first loading carrier 242 is configured The X-direction displacement carries the electronic component 31 to be tested to one side of the working device 23, and the first crimper 244 is displaced in the YZ direction, and the electronic component 31 to be tested is taken out at the first loading stage 242. And transferring the electronic component 31 to be tested to the test socket 232 of the working device 23, the test socket 23 2, the electronic component 31 to be tested is tested, and the test result is transmitted to the central control device via the circuit board 231.

Referring to Figures 7 and 8, after the test is completed, the first presser 244 is displaced in the YZ direction to the test stand 232 to take out the measured electronic component 31, and the measured electronic component 31 is transferred to the first output. The material loading station 246, the first discharging stage 246 is configured to shift the electronic component 31 to be measured in the X direction; then the second driving source 2482 of the conveying device 24 drives the second moving device 2481 to shift in the XYZ direction. The measured electronic component 31 is taken out from the first discharging stage 246, and the operator can select the receiving material by the tray or the tape according to the operation requirement. If the material is to be received by the tray, the measured electronic component 31 can be moved. When the receiving device 26 is loaded to the tray, if the material is to be received by the tape, the measured electronic component 31 can be transferred to the receptacle 2811 of the transfer device 28, and the electronic device to be tested by the transfer device 28. The component 31 is carried to the loading operation unit 25. In this embodiment, when the operator needs to receive the material according to the operation requirement, the second driving source 2482 of the conveying device 24 drives the second feeder 2481 to perform XYZ. Directional displacement, transfer the measured electronic component 31 to the receiving device 26, and according to the test result, the measured electronic Member 31 moved to a receipt bearing means receipt of the counter 26 is set 261 for separate collection.

Please refer to Figures 9, 10 and 11, which are another use embodiment of the receiving operation of the present invention. When the operator needs to receive the material according to the operation requirement, the second driving source 2482 of the conveying device 24 is driven. The second shifter 2481 is displaced in the XYZ direction, and the measured electronic component 31 is transferred to the transfer device 28, because the receptacle 2811 of the transfer device 28 is located at the first load bearing position (ie, above the first machine 211). The second shifter 2481 can be moved into the tested electronic component 31; then the third drive source 2812 of the transfer device 28, that is, the mount 2811 of the tested electronic component 31 is displaced downward and angled in the Z direction. Rotating, the socket 2811 is passed through the opening 213 of the first machine 211, and the measured electronic component 31 is carried to the second carrying position (ie, below the first machine 211), so that the receiver 2811 is evaded. An obstacle such as a Y-direction slide rail of the second driving source 2482 above the first machine 211 is provided to facilitate the shipment of the measured electronic component 31 for the pick-and-place device 2821.

Referring to FIG. 12, since the mounter 2811 carries the measured electronic component 31 in the second load position, when the fourth drive source 2822 of the transfer device 28 drives the pick and place When the device 2821 is displaced in the XZ direction, it does not interfere with obstacles such as the Y-direction slide rail of the second driving source 2482, and the measured electronic component 31 can be taken out from the receptacle 2811 located at the second bearing position. And the electronic component 31 that has been tested is conveniently transported out to the outside of the second driving source 2482, thereby moving the measured electronic component 31 into the first carrier 2831.

Referring to FIG. 13 , after the first electronic device 31 is mounted on the first transporter 2831, the transfer device 28 drives the first transporter 2831 and the second transport by the fifth drive source 2833 and the sixth drive source 2834, respectively. The 2832 is displaced in the XZ direction and interleaved, so that the first carrier 2831 carries the measured electronic component 31 to the first detector 271 of the detecting device 27, and the second carrier 2832 is displaced to the pick and place device. Below the 2821, the first detector 271 takes the top surface of the electronic component 31 on the first carrier 2831, and transmits the detection data to the central control device to detect whether the top surface of the electronic component 31 is abnormal. And the second carrier 2832 can be connected to the pick-and-place device 2821 to move into the next measured electronic component 32.

Referring to Figures 14, 15, and 16, the fifth driving source 2833 drives the first carrier 2831 to shift in the X direction, so that the plurality of tested electronic components 31 on the first carrier 2831 pass through the first detector one by one. 271, and located in the reclaiming area, the seventh driving source 2841 drives the third carrier 2842 to be displaced downward in the Z direction, and the measured electronic component 31 located on the first carrier 2831 at the reclaiming area is taken out; The seventh driving source 2841 further drives the third, fourth, fifth, and sixth carriers 2842, 2843, 2844, and 2845 to perform rotational displacement, so that the third carrier 2842 carries the measured electronic component 31 to the detecting device 27. At the second detector 272, the second detector 272 takes the five faces of the electronic component 31 and transmits the detected data to the central control device to detect whether the appearance of the other five faces of the electronic component 31 is abnormal. The fifth driving source 2833 drives the first carrier 2831 to carry a plurality of measured electronic components 31 one by one in the reclaiming area, so that when the fourth carrier 2843 is located in the reclaiming area, the lower portion of the first carrier 2831 can be taken out. a tested electronic component 31; after the second detector 272 detects the condition, the The seventh driving source 2841 continues to drive the third, fourth, fifth, and sixth carriers 2842, 2843, 2844, and 2845 for rotational displacement, so that the third carrier 2842 carries the measured electronic component 31 to the loading operation unit 25, if The measured electronic component 31 is a good product, and the third carrier 2842 is used as a good product. The Z-direction displacement moves the measured electronic component 31 into the loading operator 251 of one of the loading operation units 25 for the tape to complete the use benefit of the tape receiving, if the measured electronic component 31 is not good. When the seventh driving source 2841 drives the third, fourth, fifth, and sixth carriers 2842, 2843, 2844, and 2845 for rotational displacement, the third carrier 2842 throws the non-good electronic component 31 into the recycler 273. Therefore, the transfer device 28 can carry the electronic component from the first carrying position to the second carrying position by using the socket 2811, and can avoid the moving mechanism, and take it out with the pick-and-placer 2821 at the second carrying position of the avoidance. The electronic components on the holder 2811 are transferred to the loading operation unit 25 of the tape, so that the electronic component working device not only facilitates the configuration of the loading operation unit 25 of the tape, but also enhances the use efficiency of the transfer feed.

211‧‧‧First machine

212‧‧‧Second machine

213‧‧‧ mouth

22‧‧‧Feeding device

221‧‧‧Feeder

23‧‧‧Working device

231‧‧‧ circuit board

232‧‧‧ test seat

24‧‧‧Conveyor

2411‧‧‧First mover

2412‧‧‧First drive source

242‧‧‧First feeding platform

243‧‧‧Second feed stage

244‧‧‧First pressure extractor

245‧‧‧second pressure extractor

246‧‧‧First discharge stage

247‧‧‧Second discharge platform

2481‧‧‧Second shifter

2482‧‧‧second drive source

25‧‧‧Feeding unit

26‧‧‧Receiving device

261‧‧‧Receipt receiver

27‧‧‧Detection device

271‧‧‧ first detector

272‧‧‧Second detector

273‧‧‧Recycler

28‧‧‧Reloading device

2811‧‧‧Instrument

2821‧‧‧ picker

2822‧‧‧fourth drive source

2831‧‧‧First carrier

2832‧‧‧Second carrier

2833‧‧‧ fifth drive source

2834‧‧‧ sixth drive source

2841‧‧‧ seventh drive source

2842‧‧‧ Third carrier

2843‧‧‧fourth transporter

2844‧‧‧ fifth carrier

2845‧‧‧6th carrier

Claims (10)

An electronic component working device with a transfer device, comprising: at least one machine; a feeding device: disposed on the at least one machine, and provided with at least one feeding device to accommodate at least one electronic to be operated a working device: disposed on the at least one machine, and provided with at least one operator to perform a preset operation on the electronic component; the conveying device is disposed on the at least one machine, and is provided with at least a shifting mechanism of the shifter for transferring the electronic component; the loading operation unit is disposed on the at least one machine and located outside the moving mechanism, and the loading operation unit is configured Having at least one loading device for receiving the at least one electronic component; the transfer device is disposed on the at least one machine, and the carrier mechanism having at least one socket is disposed on the inner side of the material moving mechanism Disposing the at least one direction in the first and second carrying positions to receive the electronic component moved by the loading mechanism at the first carrying position, and carrying the electronic component to the second carrying position Avoiding the moving mechanism, The transfer device is provided with a pick-up mechanism having at least one pick-up device for taking out the electronic component at the second load-bearing position and transferring the electronic component to the loading operation unit; the central control device: Control and integrate the various devices to perform automated operations. An electronic component working device with a transfer device according to claim 1, wherein the electronic component working device is provided with a first machine and a second machine, wherein the first machine is configured to assemble the feeding The device, the working device and the conveying device, the second machine is configured to assemble the loading operation unit and the transfer device. An electronic component working device with a transfer device according to claim 1, wherein the conveying device is provided with a first moving mechanism having a first shifter and a first driving source, and the first The driving source drives the first shifter to perform a plurality of directional displacements, so that the feeding device takes out the electronic component to be operated, and at least one carrier carries the electron between the first shifting device and the working device. An element, at least one presser is attached to the working device and the at least one load Transferring electronic components between the stages, the conveying device is further provided with a second moving mechanism with a second shifter and a second driving source, and the second driving source is driven by the second driving source to perform displacement in a plurality of directions The electronic component is transferred between the at least one stage and the holder of the transfer device. The electronic component working device with the transfer device according to the first aspect of the invention, wherein the carrying mechanism of the transfer device is provided with a port on at least one machine, and a third driving source is provided to drive the The receptacle is displaced in at least one direction to the first carrying position and the second carrying position. An electronic component working device with a transfer device according to claim 1, wherein the picking mechanism of the transfer device is provided with a fourth driving source for driving the pick and place device to perform a plurality of directions for the purpose of The holder at the second load bearing position takes the electronic component out. The electronic component working device with a transfer device according to claim 1, wherein the transfer device is provided with a transport mechanism having at least one transporter for the pick-up device to move into the electronic component, and the The electronic component is carried to the loading unit. The electronic component working device with a transfer device according to claim 6, wherein the transport mechanism is provided with a plurality of first carriers and second carriers carrying the electronic components, and is provided with a fifth drive. The source and the sixth driving source respectively drive the first carrier and the second carrier to perform a plurality of directional displacements. The electronic component working device with a transfer device according to the sixth aspect of the invention, wherein the transport mechanism is provided with a plurality of carriers for circular rotational displacement, for the at least one transporter and the loading unit The electronic component is transferred between. The electronic component working device with the transfer device according to the first aspect of the patent application further includes a receiving device, the receiving device is mounted on the at least one machine, and is provided with at least one of the working electronic devices. The receiving device of the component. The electronic component working device with the transfer device according to claim 1 further includes a detecting device, wherein the detecting device is mounted on the at least one machine, and at least one of the electronic components is detected. The detector.